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Exponential function (1 Viewer)

RoXaH

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a)Calculate the area bounded by y=e^x, the coordinate axes and the tangent at x = 2
b) Calculate the area bounded by y=e^x, the Y axis and the line y=e^2
 

kurt.physics

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a)Calculate the area bounded by y=e^x, the coordinate axes and the tangent at x = 2
b) Calculate the area bounded by y=e^x, the Y axis and the line y=e^2
(note: for these problems drawing a diagram is absolutely essential!)
Lets find the equation of the tangent at x = 2







So the gradient of the tangent is and the tangent goes through the point

So by the point gradient formula







To find the area enclosed between the tangent, the curve and the axes we find the area under the curve, ie y = e^x, then subtract the area under the tangent. So:



Note that we are taking the integral between 1 and 2 for the tangent because the tangent is below the x-axis between 0 and 1 and so that area would be negative (which we don't want). Proceeding,











(ii) Note that if we were to find the area bounded by the y-axis we would have to change y = e^x in terms of y instead of x, the result being x = loge y. But you cannot integrate loge y.

Use the graph you constructed in the last question. We know that y = e^2 when x=2. Draw both the lines y = e^2 and x = 2. Note that this forms a rectangle. We can find the area under the curve y = e^x between 0 and 2, then subtract that from the rectangles area which would give us the area bounded by the y-axis. So, the area under the curve y = e^x between x =0 and x = 2 is:





The area of a rectangle is length times width, ie



And so the area bounded by the y-axis is:





 
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Aquawhite

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Great answer... just don't spend so long explaining in the HSC lol... but great to help others who ask the question to fully understand.
 

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